Brake operating device



March 4, 1941. P. c. ALLEN BRAKE OPERATING DEVICE Filed May 9, 1958 2 Sheets--Sheml 1 INVENTOR Y mf. c a m m Pv.

March 4, 1941. P 5C, ALLEN 2,233,392

BRAKE OPERATING DEVIC Filed May 9, 1958 2 Sheets-Sheet 2 INVENTOR PERCY C. ALLEN ATTORN EY Patented Mar. 4, 1941 UNITED STATES BRAKE OPERATING DEVICE Percy C. Allen, Kansas City, Mo., assignor of onehalf to E. J. Cusic, Slater, Mo.

Application May 9, 1938, Serial No. 206,826

19 Claims.

My invention relates to brake operating devices, and more particularly to means for operating a vehicle brake, so as to automatically stop the same responsive to a light that is so placed as to stop the vehicle at a desired point.

My apparatus in general, is intended to take the place of, or to supplement, the use of signals utilized for controlling trailic by means of colored lights that are periodically illuminated. My apparatus can be used either in conjunction with such signal lights or in place oi such signal A lights. The purpose of my invention is to provide means for automatically stopping the vehicle to prevent the same from entering an intersection when the control of the traillc at the intersection is at such a stage that the vehicle that is approaching the intersection from a certain direction is supposedto not enter 4said intersection.

Among the advantages of my invention are, that it will speed up traiilc, because the driver will have confidence in stop signs and signal lights, when the same is used in conjunction with such stop signs and signal lights, and will prevent anyone from entering the intersection that is not supposed to do so. It will furthermore pre- Vent the cutting of corners in making turns, and will prevent a right or left turn whenever the prevention of such turns is desired.

In general, my invention comprises means cooperating with the usual braking mechanism of the Vehicle, which will insure full stops of the vehicle before entering the intersection, wherever my apparatus is installed. The apparatus is so constructed and arranged that the stop will be smooth and quick, and the brakes, after being applied, will not be released until a certain interval of time has elapsed,whereupon said brakes will be released and the vehicle can again be driven in a forward direction. My apparatus is so constructed and arranged that the controlling means for the brakes will be put into operation when the ignition switch is turned on, but cannot be turned off immediately with the ignition switch, thus making it impossible to throw the automatic brake controlling means out of operation temporarily in such a manner that it would enable the driver of a vehicle Ito coast through an intersection that he is not supposed to enter, means being provided for keeping an electrical circuit controlling the operation of the braking means closed for a predetermined interval of time, preferably about three minutes, after the ignition switch has been turned off. The entire apparatus will operate whether the motor of the vehicle is running or not, and all of the apparatus (Cl. 18S-110) is mounted under the automobile, out of sight and in a manner so that it is not readily accessible for tinkering therewith by the driver of the vehicle to throw the same out of operation.

More specifically my invention comprises means for applying the =brakes, comprising brake actuating means in combination with light responsive means for operating the brake actuating means, said brake actuating means being operated in a braking direction upon a predeterl0 mined illumination of the light responsive means, and being utilized in cooperation with means for maintaining the brake actuating means in a braking position for a predetermined interval oi time, and in cooperation with governor conl5 trolled or speed responsive means, whereby the amount of application of the braking means is controlled in accordance with the speed 0f the vehicle, said governor controlled means operating to release the application of the brakes, should a tendency to skid occur, said light responsive means also operating to release the brakes after a predetermined time interval has elapsed. Any type of light that will throw a beam upwardly from the pavement will operate the device. It can be utilized on streets, at railway grade crossings, at school zones, highway intersections, or at any place where such stop is required or desired. The unit can be installed on all makes of automobiles, street cars, locomotives, and other vehicles.

Other objects and advantages of my invention will appear as the description of the drawings proceeds. I desire to have it understood, however, that I do not intend to limit myself to the particular details shown or described, except as defined in the claims.

In the drawings:

Fig. 1 is a diagrammatic view of the circuit utilized in conjunction with my improved brake operating means, and also showing diagrammatically the mechanical means controlled by the electrical apparatus for actuating the brakes.

Fig. 2 is a perspective view of the solenoid actuated plunger operated valve operating means. 4f

Fig. 3 is a side elevation, with the cover plate removed. of the speed responsive means associated with the brake operating mechanism, and

Fig. 4 is a fragmentary sectional view through a portion of the apparatus shown in Fig. 3.

Referring in detail to the drawings, my improved brake operating device is shown diagram.- matlcally in Fig. 1 of the drawings, the same comprising a light responsive means l0, which is, preferably, a photo-electric cell,P which is adapted to be affected in a manner to apply the brake that is to be operated by means of the lame, by the illumination falling thereon from any suitable controlled illuminating means, such u the lamp il, which may be located at any deaired point where the illumination therefrom will be thrown on the photo-electric cell Il to operate the brake at a desired point in the travel of a vehicle on which the brake is provided. One desirable location for such illuminating means is in the pavement of a street at an intersection, at which the brake is to be applied on a vehicle, such as an automobile, for stopping the same automatically before entering the intersection. It is, of course, to be understood that, while a single lamp is shown and while the illumination from a single lamp will operate to affect the photo-electric cell to operate the brake actuating means, more than one such lamp can be provided, as long as all the lamps illuminate and become de-energized, simultaneously, and, of course, any means for concentrating the illumination from the lamp on a certain spot, or within a certain area, can be provided, if desired.

The electrical energy produced by the photoelectric cell, due to the illumination falling thereon, is amplified to make the same capable of utilization to operate a. brake mechanism by means of an amplifying circuit comprising the thermionic amplifier` I2, which has a grid I3 and a plate I4. One oi' the elements of the photoelectric cell I3 is connected by means of the conductor 4 and the conductor I5 with the grid i3, and the other element of the photo-electric cell is connected by means of the conductor I3 with a movable contact member l1 engaging a high resistance I3, the conductor 4 being also connected with a ground connection i3 through a grid leak resistance 23.

The conductor 2l extends from any suitable source of direct current, such as the battery 5, from which the conductor 3 extends to the switch 1, which, when closed, connects the conductor 2l with the conductor 3 and said source of current 5. The other terminal of the battery 5 is connected with the ground connection I. The conductor 2| extends to the filament 23 o! the amplifier I2, the opposite terminal of the filament 23 to that connected with the conductor 2l being connected with the ground at 22. It is, of course, to be understood that, in the case of a vehicle, the ground connection is to some common grounding means, such as the metal frame or metal parts of the vehicle itself. The plate I4 of the amplifier I2 is connected by means oi' the conductor 24 with one terminal of the winding 25 of an electro-magnet forming part of the relay having an armature 23. The other terminal of said winding is connected with a conductor 21, which is connected with a source of direct current, such as the negative terminal o! the battery 3, the other terminal of which is connected with the ground. The armature 23 il normally biased to engage the contact 23. The resistance I3 is interposed between the conductor 21 and the conductor I3 leading to the ground, and a movable contact member 23 engages said resistance I3, said contact member being Drovided on the conductor 33, which extends `from the cathode 3l heated by the filament 23, and said contact being positioned to put the proper negative bias on the cathode 3|.

It will be obvious from the above that, when the photo-electric cell I3 is energized to cause a now of electrical enery therefrom, the amplifying circuit will cause a flow of current through the winding 25 suilicient to attract the armature 23, causing the same to leave the contact 23 and engage the contact 32. A conductor 33 extends from the conductor 2| to the armature 23, and a branch conductor 34 extends from the conductor 33 to a suitable switching device 35, to be described below, and from said switching device extends a conductor 36 to the lamp bulb 31, which is within the range of the photo-electric cell i3, so as to illuminate the same and cause the same to be energized, and from said lamp bulb 31 a conductor 33 extends to a ground connection, as will be evident.

The contact 32 is connected through the conductor 39 with a contact 43, which contact 43 is mounted on a spring 40' and engaged by a movable contact 4|, which is made in the form of a spring element and with which the conductor 42 is connected. Said conductor 42 is also connected with one end of a solenoid winding 43, which has an armature 44 in the form of a plunger mounted within the same, the winding 43, when electrical energy flows through the same, tending to pull the plunger 44 to the right in Fig. l. From the winding 43 a conductor 45 extends to a ground wire 43. A switch operating member 41 is mounted on the .plunger 44, so as to move therewith, said switch operating member being connected with the switch 35 in such a manner as to close the same upon movement of the plunger 44 to the right in Fig. i. The switch 33 is a time switch of such a character that, upon being closed, it will remain closed for a predetermined denite period of time tolled of! by the switch, and will open automatically upon the completion of the time interval for which the switch is set, such as that known as the Mark Time switch made by M. H. Rhodes Co. of Hartford, Conn., catalog No. 143L.

It will accordingly be seen, that if the switch 1 is closed, whenever the contact 32 is engaged by the armature 23, the switch 35 will be immediately closed and the lamp 31 will be energized for a definite period of time, thus continuing the 4 nation from the lamp Il would affect the same.

Thus the plunger 44 will remain in the position to which it moved to the right, until the time interval has elapsed that the switch 35 remains closed.. Upon reopening of the switch 35, after the time interval has elasped, the electrical lamp 31 will, of course, be de-energized, whereupon the winding 25 will become vde-energized, and the armature 23 will be returned to position in contact with the cooperating contact member 23.

Said contact member 23 is connected, by means of the conductor 43, with a contact 43, mounted on a spring 49', and which cooperates with a movable contact member 50,which is made in the form of a spring element. The contact member 4| is, of course, also movable, and both of these are engaged by the cross piece 5| of insulation, mounted on the movable cross member 41 carried by the plunger 44, each in one of the alternate positions of the plunger 44. The plunger 44 is shown in its furthest position toward the right in Fig. l, at which time the contacts 4l and 53 are in engagement, this being the position of the parts when the switch 1 is closed, and the beam from the lamp |I has been encountered. The

plunger 44 has moved to the right clue to the winding 43 being energized and the contact 46 is disengaged by the contact 4| due to the member 5| moving said member 4| to the right. A conductor 52 leads from the movable contact member to the solenoid winding 53, through which the plunger 44 extends, the winding 53 tending to pull the plunger 44 to the left in Fig. 1, when electrical energy flows through the same, until the contact 50 is disengaged from the contact 49. A conductor 54 extends from the winding 53 to the ground wire 46. The position of the parts shown in Fig. 1 are those assumed immediately after the switch 35 has opened due to the time mechanism operating and movement of the plunger 44 from its position furthest to the right back toward its position furthest to the left has begun, but has not yet been started.

After the lamp 31 is rie-energized and the armature 26 returns to the position shown in Fig. l, the winding 53 will have electrical energy fiowing through the same, the energy -being supplied from the source 5 with which the conductor 2| is connected through the conductors 33, 48 and 52 to said winding 53. The plunger will thereupon be moved to its furthest position to the left and` the contact 40 will be engaged by the contact 4|, restoring the parts to such a position that upon engagement by the armature 26 of the contact 32, the winding 43 will be energized to again move the plunger 44 to the right.

Any suitable brake mechanism and any suitable brake operating means can be actuated by the movement of the plunger 44. Preferably, a vacuum actuated brake mechanism, operated by means of the movements of the plunger 44, is provided, the same comprising a reservoir 55, which is connected by means of a conduit 56 through a check valve 51 with a suction pipe 58, which may be connected with any suitable suction means, such as the intake manifold of an internal combustion engine. A cylinder 59 is provided, from which the brake operating member 60 extends, which may be connected with any suitable brake mechanism, operated.v in any desired manner on any desired wheel, or wheels, or parts associated in such a manner with wheels of a vehicle as to apply the brakes thereto, suction created in the cylinder 59 moving the operating member 60 lengthwise of itself to the left in Fig. 1.

A conduit 6| extends from the cylinder 59,

l which ordinarily has a diaphragm therein that controls the position of the member 60, dependent upon whether there is a condition of atmospheric pressure on the side of the diaphragm remote from the memberv60, or whether there is a suction created on that side of the diaphragm, or in other words, a pressure below atmospheric pressure. The conduit 6| extends kfrom a valve 62, which is provided with a lever 63 extending therefrom for operating said valve, said valve being in the open position as shown in Fig. l, and being actuated by means of the operating member 64, connected with the lever 63, said operating member 64 being fixed to the plunger 44 and moving lengthwise with said plunger. vA lever 65, operating the valve 66, is also connected with the operating member 64, said valve 66 being in the closed position, as shown in Fig. l. A conduit 61 extends from the reservoir 55 through a valve 68, and a conduit 69 extends from said valve 68 to the valve 62, said valve 62 establishing communication between the conduit 6| andthe conduit 69 when it is open. Thus,

when the valve 62 is opened by movement of the plunger 44 to the right as viewed in Fig. l, the brake operating member 60 is moved into brake applying position.

The valve member 66 is provided in order to provide for the variations in the application of the brake that will be necessary due to the different speeds at which the vehicle may be traveling when the brake operating means begins its operation. Said valve has an operating member 1U, the position of which determines the opening of said valve 66, said member 10 being in the form of a plunger, which moves the valve to a wide open position when in its uppermost posi* tion and which causes the valve to assume a position between a fully closed position and a wide open position, depending upon the position of said plunger between its uppermost and lowern most positions. Said plunger is controlled by means of any suitable governor, such as the gov, ernor 1|, shown diagrammatically in Fig. l, which governor is shown as being of the usual ball and lazy tongs type, the linkage of the lazy tongs being pivoted to the support 12, and said governor having a finger 13 provided thereon that engages an adjustable pin 14, provided on a lever 15, pivoted to the link 16, which in turn is pivoted to a lever 11, which is pivotally connected with the plunger 10.

It will be obvious that upward movement of the member 13 as the balls 18 of the governor are thrown outwardly by centrifugal force, due to increase in speed of the vehicle, will cause the lever 15 to be rocked, to move the link 16 lengthn wise of itself in a downward direction, moving the end of the lever 11, Aconnected therewith, downwardly and the opposite end of the lever 11, connected with the plunger member 10, upward ly to open the valve Gilmore widely. Thus the speed of the vehicle controlsthe effective opening between the conduits 61 and 69 when the valve 62 is open, and the amount of suction created in the cylinder 59, due to the opening of the valve 62, and thus the amount of application of the brakes of the vehicle by means of the operating member 60. The construction oi" the parts is such that, even if the vehicle is standing still and the governor 1| is not operating at all, the valve operating member 10 will not completely close the valve, said valve 68 being never completely closed, but having only a relatively small opening through the same when the vehicle is standing still, or substantially standing still. This is necessary in order that the brakes will remain set after the vehicle has been stopped. The brakes are released by opening of the valve 66, which has the conduit 1,9 extending thereto from the conduit 6|, and which has a conduit 80 extending from the opposite side thereof to the outer air. The valve 66 is opened upon movement of the plunger 44 to its left position, causing the partial vacuum in the cylinder 59 to be broken, and thus causing the brake operating member 60 to move to brake releasing position.

Means is provided for controlling the Switch 1 in such a manner that the circuit through the vsame will be closed upon closing of the ignition switch of the automobile, on which the device is mounted, and cannot be reopened until a certain period of time after the ignition switch is again opened. This means is provided so that a person cannot open the ignition switch temporarily in an attempt to coast through a controlling device in the form of an illuminating means Il, as above described. The ignition switch. 8| is connected with the battery 5 through the conductor 92 and a conductor 63 leads to one end of a winding 84 of a relay, the other end of which is connected with the primary 95 of the transformer, having the secondary 86, which forms part oi the ignition circuit of the automobile.

When the relay winding 94 is energized the armature 91 is attracted, causing the armature I1 to engage the contact 80. The contact 98 is connected with the conductor 89 and the armature 81 is connected with the conductor 90. The conductor 89 is connected with a spring contact member 9|, with which the spring contact 92 co operates, said contact 92 being connected with one end oi the solenoid winding 93 through the conductor 94, the other end of said winding being connected with the ground through the wire 91. A plunger 95 having a transversely extending member 96 i'lxed thereto, extends through the winding 93.

The armature 91 is biased in such a direction that it will tend to move toward the contact 90, and when the ignition switch 8| is open, said amature 91 will be in engagement with the ccntact 98, which is connected through the conductor 99 with a spring contact |00, which is adapted to engage the contact that is connected through the conductor |02 with the solenoid winding |03, which is wound around the plunger 95 in the same direction to the winding 93, and which is connected through the wire |04 with the ground.

The switch 1 is a time switch of such a character that it is closed by movement of the operating member thereof in one direction and remains closed as long as in this position and which also remains closed for a predetermined time interval, after the operating member is moved in the opposite direction, this being due to the time controlled mechanism thereof which is set in operation by movement of the operating member in a direction opposite to closing direction to hold the switch closed for a definite time, after which it is automatically opened, one switch of this type being known as the Mark Time switch, catalog No. 140, manufactured by M. H. Rhodes Co., o! Hartford, Conn. Movement of the plunger 95 to the right by the energization of winding 93 closes the switch 1 and holds it closed indenitely. This occurs when ignition switch 9| is closed. Upon the switch 8| being opened the circuit through the winding |03 is completed due to engagement of the contacts 90 and 81 and through contacts |00 and |0|, which are then in engagement due to the previous movement of the plunger 95 to the right. The now of current through the winding |03 moves the plunger 95 to the iei't and sets the time controlled mechanism of switch 1 in operation, keeping the switch 1 and the circuit closed for a predetermined period of time. Upon such movement of the plunger contacts |00 and |0| are disengaged and contacts 9| and 92 engage, due tol movement oi bar of insulating material with cross bar 99 and plunger 95.

In Fig. 2 the windings 43 and 53 are shown as being mounted on a base member ||0, upon which is mounted a pair of bearing members I which act ,as guide means for the slidable plunger member 44, A transverse headed pin or rodlike member 41 is provided, which is pivotally connected with the lever ||2 that extends from the switch mechanism 35 and sets the same, when moved in a counter-clockwise direction, as viewed in Fig. 2, so as to set the time mechanism in operation, as has been previously described.

Engaging the pin 41 is also a clip Ii 3, which extends from the toggle switch member |i4, being connected with the operating lever thereof, said toggle switch ||4 including the various contacts 40, 4|, 49 and 50 of the switch mechanism shown diagrammatically in Fig. 1, so that movement of the toggle lever of the switch in a clockwise direction from that shown in Fig. 2 will cause the contacts 49, 50, 40 and 4| to as sume the position shown in Fig. 1. The binding post ||5 is for the ground connection corresponding to the connection 46, shown in Fig. 1, the conductors 42, 45, 52 and 54 being connected in the circuit in the same manner as shown in Fig. 1.

A slightly modified arrangement of valves and operating connections between the valves and the plunger is shown in Fig. 2 from that shown diagrammaticaily in Fig. 1, a member 64 extending endwise from the plunger 44 in both directions, as shown in Fig. 4, being secured in fixed position to the member 44 in any suitable manner, as by means of a screw-threaded connection. A link ||6 is provided between each of the levers 63 .and 65, respectively, and operating rod 64, a sleeve-like member ||1 being interposed between the members 64 and the members IIE, in which the members 64 and one end of each member ||6 are swingingly mounted so that the link 6 is adapted to swing relative to the rod 64 as the same moves endwise of itself with the plunger 44.

The lever 65 actuates the valve member 66, which is the vacuum braking valve, and has the pipe connection 00 extending to the atmosphere, and the lever 63 actuates the valve 62, which is the brake operating valve and has the pipe connection ||8 extending therefrom, which is connected with the hose 69, which corresponds to the conduit 69 shown in Fig. l, leading to the valve 68, which is shown in Fig. 3 and in Fig. 1. The ends of the links ||6 that engage the levers 63 have right angularly bent ends ||9 thereon that are mounted in openings in `the levers 63 and 65 to pivotally connect said links ||6 with said levers.

The governor controlled mechanism is mounted in any suitable housing and has a nexible shaft i2 mounted in a suitable housing |22, extending into the same, said iiexible shaft beingr operatively coupled with the shaft |23 to rotate said shaft with the shaft |2| A bearing member |24 is provided for said shaft |23 at its upper end, and mounted on said shaft is the collar |25 and a collar |30, the collar |25 being shown more in detail in Fig. 4. Said collars |25 and have the links |26 pivoted thereto1 which are in turn pivoted to each other, as in a well known form of centrifugal governor, having the weights |21 mounted thereon at the pivotal connection between the same in any well known manner. The links |26 are shown as extending into slots |29 in the collar |25 and `as being pivotally connected therewith by pins |29 traversing said slots and fixed in the collar.

A support |3| is provided within the housing |20 and mounted in said support and projecting upwardly therefrom are pins |32 that extend through openings |33 in the disk-like member 13, which corresponds to the member 13 shown in Fig. 1. The member 13 is mounted on the end of the shaft |23 so as to move endwise therewith, but said shaft |23 is rotatable relative to the member 13. Said shaft |23 is mounted for endwise movement and rotation in the bearing |24, and the collar is slidably, but non-rotatably mounted on the member |23 so that said collar |30 will rotate with said shaft |23. The collar |25 is fixed on the shaft |23 and an anti-friction bearing comprising the bearing balls |34 rolling between the cone-shaped portion |35 on said shaft |23 and the retainer |36 is provided for the shaft |23, said retainer |36 being mounted in a suitable ring-like member |31 that is fixed to the member 13 by means of the screw-threaded headed members |38. Due to the provision of said anti-friction bearing and the pins |32, the member 13 will move up and down with the end of the shaft |23 as the links |26 move said shaft due to the weights |21 being forced upwardly by centrifugal force, but does not rotate with said shaft |23. The lever 15 has a screw-threaded opening therein, that screw-threadedly receives the threaded portion of the member 14, which is shown as being made similar to a set screw, having a square head |39 adapted` to be engaged by a suitable tool for adjusting the position thereof, and being provided with a lock nut |40 to lock the same in adjusted position.

The lever 15 is provided with suitable means lfor pivotally mounting the same on the pivot member |4|, which is mounted in suitable ears |42 .extending upwardly from the support |43. Inter-engaging eyes |44 and |45 connect the lever 15 land the link 16, and .also the link 16 with the lever 11 so as to provide the pivotal connectionbetween the levers 15 and 11 and said link 16. A similar connection comprising the inter-engaging eyes |44 and |46 pivotally connects the lever 11 with the plunger 10 of the va1ve 68. The lever 11 is pivotally mounted on a supporting member |41 depending from the top of the casing |20, by means of a pivot pin |48 extending through the ears |49 depending from said support |41, and an ear |50 extending upwardly from the member 11.

When the vehicle is moving forward the ignition switch 8| is, of course, ordinarily closed and the normal position of the switch 1 is such that it is closed to complete the circuit from the battery 5 through the conductor 6 and the conductor 2| to the amplifier |2 and to the conductors 33 and 34. With the vehicle operating in a normal manner, the plunger 95 will be moved to the right from the position shown in Fig. 1 and said switch 1 will be closed and will remain closed as long as said plunger remains in this position, this being the normal condition of the circuit in which the switch 1 is located. At this time the relay 84 will be holding the armature 01 in contact with the contact member 88. The vehicle, as it travels along, will eventually reach ,a point at which one of the lamps is located. The illumination from the lamp will aiect the photo-electric cell |0 when coming in proper range of the same, which will cause a current now from the cell, which is amplied by the amplifying tube I2 suillclently to alect the Winding 25, so as to attract the armature 26. At this time the switch 35 is in open circuit condition, and the plunger 44 in the position to the left of that shown in Fig. 1. However, when the armature 26 is .attracted by the electro-magnet, of which the winding 25 is a part, it will contact the contact member 32, causing current to flow through the conductor 33, the contacts 40 and 4|, the conductor 42 and the winding 43, to

move the plunger 44 to the right. When the plunger 44 moves to the right the valve 62 is opened and the valve 66 is closed. However, the valve 68 is interposed between the reservoir and the pipe 6B, and the vextent of opening of the valve 68 will be governed by the position of the member 10, which is controlled by the position of the centrifugal governor, which in turn, is in a position dependent upon the speed that the vehicle is traveling at the time that this movement of the plunger 44 takes place. Accordingly the degree of vacuum created in the cylinder 59 will be dependent upon the position of the valve 68 when the valve 62 is opened, and this will determine the.force with which the brake is applied. When the plunger 44 has moved to the right under the influence of the current passing through the winding 43 it causes movement of the member 5| such that the contact between the contact member 40 and the spring contact member 4| is broken and contact is made between the contact member 49 and the spring contact member 50, which is the position shown in Fig. 1. This would tend to immediately return the plunger 44 to the position to the left of that shown in Fig. 1. However, this is prevented due to the lamp 31 being arranged in such a position as to affect the photoelectric cell I0 and when the plunger 44 moves .o the position shown in Fig. 1, the member 41 moves along with the plunger, actuating the switch 35 to move the same from open circuit to closed circuit position, thus closing the circuit between the source of current 5 through the conductor 34 and the conductor 36 to the electric lamp 31. The switch 35 remains in this position for a predetermined definite period of time, dependent upon the design and character of the switch, these switches being frequently made so that the same can be adjusted to a desired time interval, during which the switch will remain closed. The time interval during which the switch remains closed is predetermined, so that the electrical energy will not be cut off from the lamp 31 until after the brake has been fully applied for a sufficient interval to stop the vehicle, so that the vehicle would stop, even when the brakes are rst applied at high speed. When the time interval has elapsed, the switch 35 operates to open the.circuit, the lamp 31 is no longer illuminated and, the photo-electric cell I0 will be affected so that the armature 26 will return to the position shown in Fig. 1, which will then cause current to now through a circuit, including the winding 53, to move the plunger 44 to the left from the position shown in Fig. 1 and this movement will close the valve 62 and open the valve 66, causing the brake to be released. In case the operator of the vehicle purposely opens the switch 8| to interfere with the normal operation of the device as above described, the armature 81 will move to the position shown in Fig. 1, causing the circuit that includes it and the contact 98 from the battery 5A to feed current through the switching members |00 and |0|, which will at that time be in contact, as the plunger 95 will be in a position to the right of that shown in Fig. 1, causing the winding |03 to ne energized and moving the plunger to the poshion shown in Fig. 1. When this occurs, the switch 1, which is already closed, will move to a posit .on where the time controlled mechanism will begin operating to hold the switch closed for a predetermined time interval,

such that if this opening of the switch 8| occurs when the cell lil is approaching within the range of the lamp Il, the apparatus will be operated to put on the brakes in the manner above described before the switch 1 will operate to open the circuit to the amplifier l2, the switch and the other apparatus above described as being part of the brake actuating mechanism. Of course, as soon as the switch 8i is again closed, the switch i will be moved to a position in which the circuit will be closed, as long as the plunger remains in a position to the right of that shown in Fig. 1, and will not in any way be aiected by the time controlled means forming part of said switch 1.

What I claim is:

1. The combination with brake actuating means, of light responsive means for operating said brake actuating means, comprising switching means, means controlling the position of said switching means including ,a light responsive cell, and means for preventing release of the brake by said actuating means for a predetermined time interval, comprising time controlled means operative to permit release of said brake only after lapse of a time interval subsequent to full application of the brake.

2. The combination with brake actuating means, of light responsive means for operating said brake actuating means in a braking direction upon a predetermined illumination of said light responsive means, and means for maintaining said brake actuating means in a braking position for a predetermined interval of time.

3. The combination with brake actuating means, of electro-magnetic means for operating said brake actuating means both in a braking direction and in a brake releasing direction, and means for controlling the operation of said electro-magnetic means comprising light responsive 0 means.

4. The combination with brake actuating means, of means for operating said brake actuating means successively in a braking direction and in a brake releasing direction, means for controlling said operating means comprising light responsive means and means for maintaining a predetermined time interval between the operation of said brake actuating means in a braking direction and in a brake releasing direction.

5. The combination with brake actuating means, of means for operating said brake actuating means either in a braking direction or a releasing direction, and means out of the control ot the operator for setting said operating means either in a braking position or brake releasing position, comprising a controlling circuit for alternately setting said operating means in a braking and a releasing position, comprising iight responsive means controlling the condition of said circuit.

6. The combination with brake actuating means, of light responsive means for operating said brake actuating means, and speed responsive means varying the operation oi said brake actuating means by said light responsive means.

7. The `combination with brake actuating means, of means for operating said brake actuating means in a braking direction upon a predetermined illumination of said light responsive means, speed responsive means cooperating with the said light responsive means to vary the operation of said brake actuating means produced by said light responsive means, and means for maintaining said brake actuating means in a braking position for a predetermined interval of time.

8. The combination with brake actuating means, of means for operating said brake actuating means successively in a braking direction and in a brake releasing direction, means for controlling the operation of said operating means, comprising light responsive means, and speed responsive means for varying the operation of the brake actuating means in a braking direction as produced by said operating means.

9. The combination with brake actuating means, of means for operating said brake actuating means successively in a braking direction and in a brake releasing direction, means for controlling the operation of said operating means, comprising light responsive means, speed responsive means cooperating with said operating means to vary the operation of the brake actuating means in a braking direction as produced by said operating means, and means for main taining a predetermined time interval between the operation of said brake actuating means in a braking direction and in a brake releasing direction.

10. The combination with brake actuating means, of light responsive means for operating said brake actuating means in a braking direction upon a predetermined illumination of said light responsive means, means for maintaining said brake actuating means in a braking position for a predetermined interval of time and means out of the control of the operator for energizing said light responsive means.

11. The combination with brake actuating means, of electro-magnetic means for operating said brake actuating means both in a braking direction and in a brake releasing direction, means for controlling the operation of said electro-magnetic means, comprising light responsive means, and means out oi the control of the operator for energizing said light responsive means.

12. The combination with brake actuating means, of means for operating said brake actuating means successively in a braking direction and in a brake releasing direction, means for controlling said operating means, comprising light responsive means, means lfor maintaining a predetermined time interval between the operation of said brake actuating means in a braking direction and in a brake releasing direction, and means out of the control of the operator for energizing said light responsive means.

13. The combination with brake actuating means, of light responsive means for operating said brake actuating means, speed responsive means cooperating with said light responsive means to vary the braking action produced by said brake actuating means, and means out of the control of the operator for energizing said light responsive means.

14. 'I'he combination with brake actuating means, of light responsive means for operating said brake actuating means in a braking direction upon a predetermined illumination of said light responsive means, speed responsive means cooperating with said light responsive means to control the braking action produced by said operating means, means for maintaining said brake actuating means in a braking position for a predetermined interval of time, and means out of the control of the operator for energizing said light responsive means.

15. In an apparatus of the character described, a light responsive cell, switching means, means for controlling the position of said switching means by means of said cell, a brake operating member, a valve controlling the brake operating member, electro-magnetic means controlling the position of said valve and means for energizing said electro-magnetic means in accordance with the position of said switching means.

i6. In an apparatus of the character described, a light responsive cell, an electric lamp Within the range of said cell, switching means, means for controlling the position of said switching means by means of said cell, a brake operating member, a valve controlling the brake operating member, electro-magnetic means controlling the position of said drive, means for energizing said electro-magnetic means in accordance with the position of said switching means, and means for energizing said lamp upon movement of said valve to braking position.

17. In an apparatus of the character described, a light responsive cell, an electric lamp within the range of said cell, switching means, means for controlling the position of said switching means by means of said cell, a. brake operating member, a valve controlling the brake operating member, electro-magnetic means controlling the position of said valve, means for energizing said electro-magnetic means in accordance with the position of said switching means, and means for energizing said lamp upon movement of said valve to braking position, including switching means opening upon the elapse of a predeter- `mined time interval after the closing thereof by said electro-magnetic means.

18. In an apparatus of the character described, a light responsive cell, switching means, means for controlling the position of said switching means by means of said cell, a brake operating member, vacuum means for actuating said brake operating member, a vacuum reservoir, a valve controlling communication between said vacuum reservoir and vacuum means, electromag netic means controlling the position of said valve, means for energizing said electro-magnetic means in accordance with the positoin of said switching means, a second valve between said reservoir and vacuum means, and speed responsive means controlling the position of said second valve.

19. In an apparatus of .the character described, a light responsive cell, switching means, means for controlling the position of said switching means by means of said cell, a brake operating member, vacuum means for actuating said brake operating member, a vacuum reservoir, a valve controlling communication between said vacuum reservoir and vacuum means, electro-magnetic means controlling the position of said valve. means for energizing said electro-magnetic means in accordance with the position of said switching means, a second valve between said reservoir and vacuum means, speed responsive means controlling the position of said second valve and a valve for breaking the vacuum in said vacuum means also under the control of said electro-magnetic means.

PERCY C- ALIEN 

